| Deliverable related No | Deliverable name | Description | Lead Beneficiary | |
|---|---|---|---|---|
| D1.1 | Project Management Plan | This deliverables reports the project management structures and procedures and the updated workplan. | UNIFI | Download |
| D1.2 | Data Management Plan | This deliverable describes the Data Management Plan set up for the project | UNIFI | Download |
| D2.1 | Chemical reaction mechanism for H2-JetA/SAF combustion | A report describing the different chemical schemes (with various levels of detail) developed by UNINA for the description of H2-JetA/SAF combustion. It will also include input files for the reaction mechanisms in Chemkin format. | UNINA | |
| D2.2 | Extension of ATF model to multi-fuel flame structures | A report describing the theory and the validation of the novel ATF approach capable to handle multi-fuel combustion regimes (H2+SAF) | UNIFI | |
| D2.3 | Experimental results on fuel-flexible lean lifted flames in single sector combustor | KIT/EBI. A report describing the experimental campaign aimed at investigating the lifted flame burner design for fuel flexible operations (H2+SAF) | KIT | |
| D2.4 | Experimental results on pre-vaporized H2-JetA/SAF flames at atmospheric pressure | A report describing the results of the experimental investigations on fundamental pre-vaporized H2-JetA/SAF flames at laboratory conditions (ambient pressure). | UNINA | |
| D2.5 | Numerical simulations of the LEAF with DCMC | A report describing the CFD results achieved by the simulations of the LEAF concept with dual-fuel operations using the Doubly-Conditioned-Moment-Closure | UCAM | |
| D2.6 | Experimental data on H2, SAF and H2/SAF dual-fuel operation of the LEAF | Description of the experimental results obtained on the dual fuel version of the LEAF concept (H2-SAF) operated at ambient pressure | UCAM | |
| D2.7 | Exp. data on H2, SAF and H2/SAF dual-fuel operation of the LEAF prototype at high pressure | Description of the experimental results obtained on the dual fuel LEAF concept (H2+SAF) operated at high pressue | ETH | |
| D2.8 | Experimental data of primary breakup diagnostics | A report containing the description of the experimental measurement of the primary break process of a fundamental atomizer configuration for the validation of the CFD model. | CNRS | |
| D2.9 | Experimental results on fuel-flexible CHAIR burner in multi-burner array arrangement | KIT/EBI. Description of the experimental campaign of the fuel flexible CHAIR concept (H2+SAF) operated at ambient pressure in the multi-burner configuration with inclined burners arrangement. | KIT | |
| D2.10 | Experimental comparison with numerical simulation of atomization | Description of the comparison between experimental results and numerical modeling of the atomization process of liquid fuels. | CNRS | |
| D3.1 | Electrospray trajectory modulation: mixing control via electrostatic fields | A report describing the numerical modeling of the application of electrostatic fields to control the mixing process between reactants | IC | |
| D3.2 | LEAF concept investigation with plasma control | Description of the experimental campaign aimed at investigating the control of the combustion process of the LEAF concept in the presence of plasma actuation at ambient pressure. | UCAM | |
| D3.3 | Effect of electro-hydrodynamics on primary atomisation mechanisms | KIT/ITS. Description of the SPH modeling of the atomization process in the presence of electric-fields | KIT | |
| D3.4 | Investigation of SAF and hydrogen flame structure under electromagnetic fields | A report describing the results of the investigation of SAF and hydrogen flame structure under electromagnetic fields | IC | |
| D3.5 | Investigation of multifuel burner under plasma assisted combustion | Experimental investigation of the CHAIR fuel flex burner operated at ambient pressure under plasma actuation. | UNILE | |
| D4.1 | Reference engine thermodynamic cycle for fuel flexible operations | This report will describe the engine thermodynamic cycle(s) selected as references for the definition of LEAF and CHAIR innovative combustion concepts. Reference cycle(s) will also be used to map measured and predicted emissions at lab-scale conditions up to realistic engine scales. | UNIFI | Download |
| D4.2 | Conceptual design of innovative fuel-flexible burners | This deliverable will see the contribution by the whole consortium. The report will describe the different fuel flexible combustion concepts based on the LEAF and CHAIR designs exploiting the reference thermodynamic conditions defined in T4.1.1. The designs will also include options to account for plasma/electric field applications to improve flame stability, mixing, and liquid fuel atomization. | KIT | |
| D4.3 | Ion probe sensors as advanced monitoring tool for lean lifted spray flames with H2 addition | KIT/ITS. A report describing the definition of the active flame control strategy on the CHAIR concept based on the use of the ion probe sensors. | KIT | |
| D4.4 | Low-order descriptions of the novel plasma assisted burners | A report describing the low-order modelling of novel CHAIR dual fuel burners operated with plasma actuation. | UNILE | |
| D4.5 | Low-order descriptions of the novel burners | A report describing the low-order modelling of the LEAF burner concept operated in dual-fuel mode using the ISRN (Imperfectly-Stirred Reactor Network) approach | UCAM | |
| D4.6 | CFD based chemical reactor network modelling with plasma assisted combustion | CRN (Chemical Reactor Network) modelling of the CHAIR fuel flex concept (with and w/o plasma actuation). The model will also allow to map emissions (mainly NOx) measured at lab-scale conditions up to engine scale. | UNIFI | |
| D4.7 | CFD modelling of fuel-flex CHAIR concept up to engine relevant conditions | A report describing the use of developed CFD models (in Wp2) to investigate the CHAIR concept up to engine relevant conditions. | UNIFI | |
| D4.8 | CFD of plasma-assisted combustion at engine-relevant conditions | CFD modelling of the LEAF concept operated with plasma actuation up to engine relevant conditions. | IC | |
| D5.1 | FFLECS project website online | FFLECS project public website ready and online | UNIFI | Download |
| D5.2 | Dissemination and communication plan | A report describing the dissemination and communication plan up to project ending | UNIFI | Download |
| D5.3 | Knowledge Portfolio | A report listing all relevant background and results to be generated in the FFLECS project, which will be the key too to prepare the final exploitation of the results. Based on the KP, the FFLECS partners will prepare a detailed exploitation plan, which will be finalised by the end of the project | UNIFI | |
| D5.4 | Final exploitation plan | This report will recover the plan guessed in the KP at M12 defining the final consolidated plan for the exploitation of all the generated knowledge for each partner | UNIFI |
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Public project deliverables
FFlecs, @2023